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Online Training 2024

Are you looking for advanced training in fluid flow theory, software, and modeling techniques?

Our off-site training offers a comprehensive course that covers the fundamentals and fills the gaps between university learning and real-world problems.

39 years of software development experience

Continuously refined course for the last 25 years

Up to 3 experienced trainers

Be officially certified by FluidFlow

Up to 5 days of extensive training

With years of experience, our team of experts can help you establish and implement best practices, maximize proficiency, refresh your understanding, gain insights, and excel in fluid system design.

Fees for the 2024 courses

Training
Time
Fee
Full Course (discounted)
(Fundamentals + Liquid + Gas + Slurry + non-Newtonian + Two-Phase)
5 days
£3360 £2580 / attendee
Fundamentals + Liquid + Slurry + non-Newtonian
3 days
£1680 / attendee
Fundamentals + Liquid + Gas
3 days
£1680 / attendee
Fundamentals + Liquid + Gas + Two-Phase
4 days
£2520 / attendee
** Receive a discounted price when you purchase our full course for more than 3 attendees.

View prices in your currency. Check current exchange rates here.

Monthly Online Training Schedule

Limited spaces are available.

March 2024
4th - 8th March
*Fully Booked
Week 10
Fundamentals + Liquid + Gas
Slurry + non-Newtonian
Two-Phase
March 2024
April 2024
22nd - 26th April
(EUROPE/UK)
Week 17
Fundamentals + Liquid + Gas
Slurry + non-Newtonian
Two-Phase
April 2024
MAY 2024
20th - 24th May
(ASIA/PACIFIC)
Week 21
Fundamentals + Liquid + Gas
Slurry + non-Newtonian
Two-Phase
MAY 2024
June 2024
17th - 20th June
(EUROPE/UK)
Week 24
Fundamentals + Liquid + Gas
Slurry + non-Newtonian
June 2024

Looking for advanced training exclusively for your company? Fill out the form here to get started!

Course Outline

Introduction to Hydraulic Calculation
How Does Fluid Flow?
Objectives of Hydraulics
Typical Hydraulic System
Basic Equations
Hydraulic Calculation Workflow
Line Sizing
Basic Flowsheet Operations
Solver Overview
Auto Size Feature

Fundamentals Supplementary Videos
Design Input Source in Hydraulic Calculation
Design Output in Hydraulic Calculation
Fluid Properties
The Bernoulli’s Equation
Evaluation of Reynolds Number and Relative Roughness
The Mechanical Energy Balance Equation
Pipe Deterioration and Scaling
Evaluation of Friction Factor
Hazen & Williams Correlation
Friction Loss through Fittings and Valves
K Pressure Loss Coefficient
Kf Equivalent Length
User-Defined Generic Component
Kv Cv Flow Coefficient
Hydraulic Calculation Pressure Terms
Modeling Tips and Over-constrained Models

 

Hydraulic Modelling
Pumps
Control Valves
Composite Charts
Orifice
Network Analysis

Liquid Supplementary Videos
Centrifugal Pump Evaluation
Centrifugal Pump Evaluation Exercise

 

Compressible Flow – Theory
Compressible Flow – Equation
Stagnation Properties
FluidFlow Compressible Flow Calculations
Calculation Settings
Line Sizing for Gas/Vapor
Control Valve Sizing for Gas/Vapor
Fans, Blowers, and Compressors.
FluidFlow Examples

Gas Supplementary Videos
Comparison of Compressible Flow Equations
Air Sparger Design Exercise
Creating Gas Mixtures
Vacuum System

 

Non-Newtonian Liquids 
Introduction to Non-Newtonian Liquids
Non-Newtonian Viscosity Models
Non-Newtonian Liquid Property Data
Newtonian vs. Non-Newtonian Hydraulic Modelling
Non-Newtonian Friction Loss Calculations
Impact of Pipe Roughness
Centrifugal Pump Viscosity Correction
Modeling Exercises

Settling Slurries
Introduction to Slurries
Settling Slurry Flow vs. Friction Loss
Settling Slurry Friction Loss
Settling Slurry Deposition Velocity
Input parameters for settling slurry models
Solids Database
Configuration of slurry simulations
Specific Energy Consumption
Slurry Pipeline Sizing Example
Pipe Orientation
Solids De-rating
Sample Settling Slurry Hydraulic Models

Two-Phase Flow Theory
Two-Phase Flow Regimes
Two-Phase Flow Modelling Approach
Two-Phase Flow Correlations
Two-Phase Flow Regimes – An Example Case
Line Sizing for Two-Phase Flow
FluidFlow Examples

Two-Phase Supplementary Videos
Two-Phase Flow Regimes – Example Case
Two-Phase Modelling – An Overview
Two-Phase Flow Modelling
Design Exercise Two-Phase Flow Modeling Approach
Creating a New Fluid

Register today

Secure your seat now for our exclusive online training!
Limited spots available.